Vibration Prediction of Bladed Disks Coupled by Friction Joints

Krack, Malte; Salles, Loïc; Thouverez, Fabrice

doi:10.1007/s11831-016-9183-2

Cited by 196 publications

(139 citation statements)

References 170 publications

(226 reference statements)

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“…However, taking into account nonlinearities in the simulations can be of primary importance in the design process since they are known to have a strong impact on the vibration level, as pointed out in several numerical and experimental investigations [41][42][43]. A detailed review on vibration prediction of bladed disks in the presence of friction phenomena can be found in [44].…”

Section: Numerical Applicationsmentioning

confidence: 99%

Reduced-order modelling using nonlinear modes and triple nonlinear modal synthesis

Joannin

Thouverez

Chouvion

2018

Computers & Structures

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To cite this version:Colas Joannin, Fabrice Thouverez, Benjamin Chouvion. Reduced-order modelling using nonlinear modes and triple nonlinear modal synthesis. Computers and Structures, Elsevier, 2018, 203, pp.18 -33. <10.1016/j.compstruc.2018 AbstractThis paper introduces a novel reduced-order modelling technique well-suited to the study of nonlinear vibrations in large finite element models. The method combines the concepts of nonlinear complex modes and characteristic constraint modes -or interface modes -to build a fully algebraic reduced-order model easily solved by standard iterative solvers. The performance of the method is appraised on a nonlinear finite element model of bladed disk in the presence of structural mistuning, highlighting the potential of this new technique to deal with current industrial problematics.

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Section: Numerical Applicationsmentioning

confidence: 99%

Reduced-order modelling using nonlinear modes and triple nonlinear modal synthesis

Joannin

Thouverez

Chouvion

2018

Computers & Structures

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“…Some authors adopt a Dynamic Lagrangian method to solve on the contact patch [6,7], that is, the contact constraints are taken into account in their non-regularized form without additional compliance. Other authors, for example, [4,8] apply a contact element to each meshed node belonging to the contact area, introducing normal and tangential stiffnesses and a Coulomb friction law. This last method is preferred here, as its calibration parameters (k n , k t and μ), however difficult to determine, represent a physical measurable property.…”

Section: A Quick Critical Review Of Contact Modeling In the Turbomachmentioning

confidence: 99%

“…The answer to point 3 is investigated using three pre-optimized damper configurations [40], that is, curved-flat dampers not affected by lift-off/rolling, jamming or partial detachment. 4 The user-controlled working conditions investigated during this chapter are limited to a variation of centrifugal load on the damper (i.e. normal load at the contact).…”

Section: Contact Parameters Variability and Contact Model Adequacymentioning

confidence: 99%

“…The presence of friction-induced nonlinearities makes solving the equilibrium equations a challenging task, therefore standard FE codes are not suited to the purpose: a complex hierarchy of techniques has been developed, a thorough review can be found in [4]. Furthermore, modeling friction entails:…”

Section: Introductionmentioning

confidence: 99%

“…It is based on the observation that typical reduction techniques (e.g. CB-CMS [4]), used to reduce the size of FE models, may neglect the small local deformations. A "correction factor" is introduced to take into account this effect.…”

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Modeling Friction for Turbomachinery Applications: Tuning Techniques and Adequacy Assessment of Heuristic Contact Models

Gastaldi¹

2018

Contact and Fracture Mechanics

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Friction dampers are commonly included into turbine designs to limit the turbine blades resonant vibrations and thus avoid high cycle fatigue failures. In order to effectively predict the effect of friction dampers on the turbine dynamics, friction is included into the simulation through specific mesoscale contact models. These models require knowledge of contact parameters to offer meaningful predictions. Standard single-contact test arrangements may fail to capture the true contact conditions and kinematics of friction dampers, especially for complex multi-interface contacts interested by variable normal loads. Several methodologies have been proposed in the literature: the lack of a "shared" approach in the field pinpoints a true "gap" in the research. Overcoming this difficulty is of primary importance, as it is the one feature that separates a state-of-the-art numerical code from a true design tool. Purpose of this chapter is to illustrate the experimental/ numerical tools and methods developed to fill this gap for a common family of friction dampers, called "underplatform dampers" with a curved-flat cross section. Both cylinder-on-flat and flat-on-flat interfaces are addressed. The adequacy of the state-of-theart contact model is discussed on the basis of a large data set obtained performing an extended experimental campaign on multiple damper samples.

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Tracking amplitude extrema of nonlinear frequency responses using the harmonic balance method

Raze,

Volvert,

Kerschen

2023

Numerical Meth Engineering

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This work proposes a novel efficient method to track the evolution of amplitude extrema featured by frequency responses of nonlinear systems using the harmonic balance method. Means to compute the amplitude of a Fourier series are first outlined, and a set of equations characterizing a local extremum of a nonlinear frequency response amplitude curve is derived. Efficient numerical procedures are used to evaluate these equations and their derivatives (including second‐order ones) to embed them in a predictor‐corrector continuation framework. The proposed approach is illustrated on three examples of increasing complexity, namely a Helmholtz–Duffing oscillator, a two‐degree‐of‐freedom system with a modal interaction, and a doubly clamped von Kàrmàn beam with a nonlinear tuned vibration absorber.

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Vibration Prediction of Bladed Disks Coupled by Friction Joints

Cited by 196 publications

References 170 publications

Reduced-order modelling using nonlinear modes and triple nonlinear modal synthesis

Reduced-order modelling using nonlinear modes and triple nonlinear modal synthesis

Modeling Friction for Turbomachinery Applications: Tuning Techniques and Adequacy Assessment of Heuristic Contact Models

Tracking amplitude extrema of nonlinear frequency responses using the harmonic balance method

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